KR101216632B1 - the method of constructing wall using foam block structure - Google Patents

Abstract

The present invention relates to a wall construction method using a foam block structure for wall laying that can be constructed by placing concrete without installing a separate formwork.
Foam block structure for wall pour according to the present invention and the wall construction method using the same by fixing the main block 10 so as not to move with each other using the bridge (28,29), the indoor panel 11 and the outdoor panel ( 12) and the concrete is placed and cured between the indoor panel 11 and the outdoor panel 12, there is an advantage that can be constructed without installing a separate formwork wall. In particular, since the concrete is poured and cured between the indoor panel 11 and the outdoor panel 12, the indoor panel 11 and the outdoor panel 12 are integrally fixed to the wall surface to provide heat insulation to the wall surface. There is no need to perform a separate work to attach, the work efficiency can be increased, there is an advantage that there is no problem, such as environmental hormone generation due to the use of the adhesive.

Description

The method of constructing wall using foam block structure}

The present invention relates to a wall surface construction method using a foam block structure for wall laying, and more specifically, wall construction using a wall block foam block structure that can be constructed by pouring concrete without installing a separate formwork. It is about a method.

In general, in order to construct a concrete wall surface of a building, a pair of formwork spaced apart from each other, and the wall surface was constructed by placing concrete between the formwork.

However, in this case, if the concrete is cured after installing the formwork, the formwork should be removed. This process is very cumbersome and time consuming and expensive, and there is a high possibility of a safety accident when installing or releasing the formwork. There was a problem.

In addition, after the concrete wall is cured and the formwork is removed, a separate insulation is attached to the inner and outer sides of the concrete wall. Therefore, not only the work is very troublesome, but also an environmental hormone is generated in the adhesive when the adhesive is used to attach the insulation.

Therefore, there is a need for a new method to solve this problem.

The present invention is to solve the above problems, the purpose of providing a wall construction method using a foam block structure for wall laying of a new structure that can be constructed by laying concrete without installing a separate formwork have.

The present invention for achieving the above object, the main block is composed of a synthetic resin having a thermal insulation and the upper and lower coupling grooves 13 are formed and assembled together to form the indoor panel 11 and the outdoor panel 12 ( 10); Both ends are coupled to the coupling groove 13 of the main block 10 or the auxiliary block 40 coupled to the upper end of the main block 10 to fix the indoor panel 11 and the outdoor panel 12 to each other. It includes a bridge (28,29), the main block 10 and the bridge (28, 29) is assembled to form the indoor panel 11 and the outdoor panel 12, and the indoor panel 11 and There is provided a foam block structure for wall laying, characterized in that it is possible to construct a wall by pouring concrete between the outdoor side panels (12).

According to another feature of the present invention, the bridges 28 and 29 are bent in a high-strength metal wire, the extension portion 21, and formed in a wide figure in a direction perpendicular to the extension portion 21 A foam block structure for wall pouring is provided, which is integrally connected to both ends of the extension part 21 and configured to have a coupling part 22 inserted into and fixed to the coupling groove 13.

According to another feature of the invention, the auxiliary block 40 has a coupling hole 43 is formed on the upper surface is coupled to the top of the indoor panel 11, the bridge 28, 29 is the outdoor panel (12) a coupling part 24 coupled to the coupling groove 13 of the main block 10 provided at an upper end, an extension part 25 extended to be inclined downward from the coupling part 24, and the extension part A foam block structure for wall pour is provided, which includes an insertion part 26 extending downward from the bottom of the lower part 25 and fitted into the coupling hole 43 of the auxiliary block 40.

According to another feature of the invention, the upper surface and the lower surface of the main block 10 is formed with the projection 17 and the concave groove 18 of the interlocking form, the main block 10 to be stacked by stacking upwards Provided is a foam block structure for wall pouring, characterized in that it is possible to.

According to another feature of the invention, the main block 10 is characterized in that the noise prevention slot 16 is formed through the upper and lower surfaces of the main block 10 and extending in the longitudinal direction of the main block 10. A foam block structure for wall casting is provided.

According to another feature of the present invention, the protruding portion 19 is formed in the vertical surface of the main block 10 in the vertical direction, the protruding portion 19 is wider than the proximal end (W2) of the width (W1) There is provided a foam block structure for wall placing.

According to another feature of the present invention, the wall portion of the foam block structure, characterized in that the fixing portion (23a) formed by bending the extension portion (21, 25) in the middle portion of the extension portion (21, 25) This is provided.

According to another feature of the invention, the extension portion 25 is formed by bending the wire is provided with a support portion 27 in close contact with the front of the main block 10, the front end portion of the support portion 27 to the upper side Provided is a foam block structure for wall pouring, which is bent.

According to another feature of the invention, it is further characterized in that it further comprises a height adjustment block 60 is coupled to the upper portion of the indoor panel 11 to adjust the height of the indoor panel 11 to the slab 70. A foam block structure for wall pouring is provided.

According to another feature of the invention, the step of fixing the main block 10 to each other by inserting the coupling portion 22 of both ends of the bridge (28,29) in the coupling groove 13 of the main block (10); Assembling the main blocks 10 fixed to each other to form the indoor panel 11 and the outdoor panel 12; Placing and curing concrete between the indoor panel 11 and the outdoor panel 12; There is provided a wall construction method comprising a.

According to another feature of the invention, further coupling the main block 10 of the first stage to the top of the outdoor panel 12, and further coupling the auxiliary block 40 to the top of the indoor panel (11) Wow; Coupling both ends of the bridges 28 and 29 to the main block 10 and the auxiliary block 40 on the upper side of the outdoor panel 12 and fixing them to each other; Selectively coupling the height adjusting block 60 to the top of the auxiliary block 40 to adjust the height of the indoor panel 11 to match the height of the formwork 80; Placing concrete in the formwork 80 and curing is provided wall construction method further comprising the step of constructing the slab (70).

In the wall construction method using the foam block structure for wall laying according to the present invention, the main block 10 is fixed to each other by using the bridges 28 and 29 so that the indoor side panel 11 and the outdoor side panel 12 are fixed. ) And the concrete is placed between the indoor panel 11 and the outdoor panel 12 and cured, there is an advantage that can be constructed without installing a separate formwork. In particular, since the concrete is poured and cured between the indoor panel 11 and the outdoor panel 12, the indoor panel 11 and the outdoor panel 12 are integrally fixed to the wall surface to provide heat insulation to the wall surface. There is no need to perform a separate work to attach, the work efficiency can be increased, there is an advantage that there is no problem, such as environmental hormone generation due to the use of the adhesive.

1 is a side cross-sectional view showing a foam block structure for wall pouring according to the present invention;
Figure 2 is a perspective view showing the main block and the bridge for wall construction of the embodiment shown in FIG.
3 is a plan view showing the main block and the bridge for wall construction of the embodiment shown in FIG.
Figure 4 is a side cross-sectional view showing the main block and the bridge for wall construction of the embodiment shown in FIG.
5 is a perspective view showing the wall construction bridge of the embodiment shown in FIG.
Figure 6 is a side cross-sectional view for explaining the slab construction bridge of the embodiment shown in FIG.
7 is a perspective view of the slab construction bridge of the embodiment shown in FIG.
8 is a reference diagram showing a wall construction method according to the present invention,
9 is a reference diagram showing the construction method of the wall and the slab according to the invention,
10 is a reference view showing a modification of the wall construction bridge of the embodiment shown in FIG.
11 is a reference diagram showing a modification of the main block according to the present invention;
12 is a reference diagram showing a pulverulent material according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show a foam block structure for wall pour in accordance with the present invention, consisting of a synthetic resin having a thermal insulation and the coupling groove 13 is formed on the upper and lower surfaces are assembled together to the indoor side panel 11 and the outdoor side A main block 10 constituting the panel 12; Both ends are composed of bridges 28 and 29 coupled to the indoor panel 11 and the outdoor panel 12 to fix the indoor panel 11 and the outdoor panel 12 to each other. Accordingly, the main block 10 and the bridges 28 and 29 are assembled to each other to fix the indoor panel 11 and the outdoor panel 12 to be spaced apart from each other by a predetermined interval, and the indoor panel 11 and the outdoor side are fixed to each other. Placing concrete between the panels 12 can be constructed on the wall, and when the slab 70 is constructed so that the outdoor panel 12 can finish the circumferential surface of the slab (70). At this time, the indoor panel 11 is fixed close to the indoor side of the wall surface, the outdoor panel 12 is fixed to the outdoor side of the wall.

1 to 5, the main block 10 is manufactured by molding a styrofoam (neopole) having excellent heat insulation and soundproofing into a rectangular block shape. At this time, the upper surface of the main block 10 is formed with a cross-shaped protrusion 17 protruding upward, the lower side is formed with a cross-shaped concave groove 18 is engaged with the protrusion 17, the prefabricated block As described above, the main block 10 may be coupled to each other in the vertical direction and the lateral direction to form a wide plate-shaped indoor panel 11 and an outdoor panel 12.

In addition, the upper and lower surfaces of the main block 10 have a plurality of coupling grooves 13 to which both ends of the bridges 28 and 29 are coupled to a predetermined depth. To this end, the adjacent surface of the main block 10 is formed with an insertion groove 14 in the vertical direction passing through the central portion of the coupling groove 13, the coupling groove 13 and the insertion groove 14 is the main block ( 10 is connected to each other by the connecting groove 15 formed on the upper and lower surfaces. Accordingly, both ends of the bridges 28 and 29 may be fixed to the coupling groove 13 in the vertical direction of the main block 10. At this time, the coupling groove 13 is composed of a plurality is formed along the main block 10 so as to be spaced apart a predetermined interval is configured to couple the plurality of bridges (28,29) to the main block (10).

And, as shown in Figure 3, the main block 10 is formed with a noise preventing slot 16. The noise preventing slot 16 penetrates the upper and lower surfaces of the main block 10 and forms a narrow gap extending in the longitudinal direction of the main block 10 to form a space in the inner main block 10. Thus, the outside noise can be prevented from being transmitted to the room.

In addition, the protruding portion 19 is formed in the adjacent surface of the main block 10 in the vertical direction, the protrusion 19 is wider than the proximal end (W2) of the front end portion (W1). Therefore, when the concrete is poured between the main block 10 and cured, the ends of the protrusions 19 are fixed to the concrete, thereby increasing the bonding force between the concrete wall and the main block 10 to construct the concrete wall. The main block 10 can be prevented from falling off.

The bridges 28 and 29 are divided into a wall construction bridge 28 for constructing a wall surface, and a slab construction bridge 29 for constructing a slab.

As shown in FIGS. 4 and 5, the wall bridge 28 is bent to a high strength metal wire, and is integrally connected to both ends of the extension part 21 and the extension part 21. It is composed of a coupling portion 22 is inserted into the coupling groove (13). At this time, the extension portion 21 is formed in a straight rod shape, the coupling portion 22 is bent in the direction perpendicular to the extension portion 21 by bending both ends of the extension portion 21 in the shape of a rhombus. It is widely composed. The extension part 21 is arranged to face the central part of the coupling part 22 and is connected to the extension part 21 by a connecting part 23 in the form of a memory. In addition to the function of connecting the extension portion 21 so that the extension portion 21 is located at the center of the coupling portion 22, the connection portion 23 fits the coupling groove 13 of the main block 10 into the coupling groove 13 of the main block 10. When coupled to the insertion groove 14 and the connecting groove 15 is fitted to function to fix the wall construction bridge 28 is not rotated.

The slab construction bridge 29, as shown in Figure 6 and 7, bending the wire, the coupling portion 24 is coupled to the coupling groove 13 of the main block 10, and the coupling portion And an extension portion 25 extended downwardly at 24 and an insertion portion 26 extending downwardly from the lower end of the extension portion 25, the middle portion of the extension portion 25 having a wire. The support portion 27 is formed by bending the weld is configured to form a triangular overall shape. The coupling portion 24 is formed by bending the left end of the extension portion 25 in a lozenge shape to have the same shape as the coupling portion 22 provided in the wall construction bridge 28 described above, and the insertion portion (26) is configured to be fitted into the coupling hole 43 of the auxiliary block 40 to be described later by bending the right end of the extension portion 25 to the lower side. The support part 27 is vertically disposed in the vertical direction and is inserted into the insertion groove 14 of the main block 10, and extends inclined upward and forward from both ends of the vertical part 27a. It is composed of an inclined portion 27b welded to the portion 25 and the tip portion of the inclined portion 27b is bent upward to be parallel to the extension portion 25.

At this time, as shown in Figure 6, the auxiliary block 40 is coupled to the upper end of the indoor panel (11). The auxiliary block 40 is made of a styrofoam (neopole) material of a very low height and long in the left and right directions compared to the main block 10, the upper and lower surfaces of the projections of the main block 10 ( 17) and the projection 41 and the coupling groove 42 of the same shape as the concave groove 18 is formed and fitted to the upper end of the indoor panel (11). In addition, a coupling hole 43 to which the insertion portion 26 of the bridge construction slab 29 is coupled is formed on the upper surface of the main block 10.

In addition, an upper finishing block 50 having an upper surface coupled to the upper portion of the auxiliary block 40 is coupled, and between the auxiliary block 40 and the upper closing block 50, the upper end of the indoor panel 11 The height adjustment block 60 to selectively adjust the height to the height of the slab 70 is selectively coupled. The auxiliary block 40 and the upper closing block 50 is made of the same styrofoam material as the auxiliary block 40. In addition, the height of the height adjustment block 60 is configured to be similar to or slightly higher than the height of the auxiliary block 40, it is possible to adjust the height of the top of the indoor panel 11 by combining a plurality of height adjustment block (60). . In addition, upper and lower surfaces of the height adjusting block 60 are formed with cross-shaped protrusions 61 and coupling grooves 62 having the same shape as the protrusions 17 and the recessed grooves 18 of the main block 10, respectively. A coupling groove 51 is formed on the lower surface of the upper closing block 50 to firmly couple the height adjusting block 60 and the upper closing block 50 to the upper end of the indoor panel 11. .

Reference numeral 30, which is not described, illustrates a side block coupled between the indoor panel 11 and the outdoor panel 12 to close side ends of the indoor panel 11 and the outdoor panel 12. . The side block 30 has concave grooves 31 corresponding to the protrusions 19 formed at both ends thereof, and then, after assembling the indoor panel 11 and the outdoor panel 12, a separate tool is not used. The side block 30 may be coupled between the indoor panel 11 and the outdoor panel 12. Therefore, the side block 30 may be coupled to the side ends of the indoor panel 11 and the outdoor panel 12 to finish the end, or the corner of the wall may be finished using the side block 30.

The method of constructing the wall surface and the slab 70 by using the main block 10 and the bridges 28 and 29 is as follows.

First, as shown in (a) of FIG. 8, the main blocks 10 are spaced apart from each other, and both ends of the bridge 28 for wall construction are inserted into the coupling grooves 13 of the main block 10. 10). The main block 10 fixed in this way is assembled in multiple stages to form the indoor panel 11 and the outdoor panel 12 as shown in FIG. In this case, as shown in FIG. 8B, the side block 30 may be coupled to the side ends of the indoor panel 11 and the outdoor panel 12 to finish the end.

When the indoor panel 11, the outdoor panel 12, and the side block 30 are assembled, the main block of one stage is disposed on the top of the outdoor panel 12 as illustrated in FIG. 6. 10 is further combined, and after the auxiliary block 40 is coupled to the upper end of the indoor panel 11, both ends of the slab construction bridge 29 to the main block 10 of the upper side of the outdoor panel 12 And the main block 10 coupled to the top of the outdoor panel 12 by coupling to the auxiliary block 40, respectively.

And, as shown in Figure 9 (b), by selectively coupling the height adjustment block 60 and the upper closing block 50 to the top of the auxiliary block 40, the top height of the indoor panel 11 After adjusting the height to the height of the slab 70 and installing the slab casting form 80 to match the height of the interior panel 11, as shown in (c) and FIG. In addition, between the indoor panel 11 and the outdoor panel 12 and the slab pour the concrete 80, the concrete is placed on the upper surface and the slab 70 is constructed. At this time, the strength of the wall surface can be reinforced by fixing the reinforcing bar to the end portion of the extension portion 21 of the wall construction bridge 28 or the support portion 27 of the slab construction bridge 29.

When the concrete is cured and hardened, the interior panel and the exterior panel are attached to the main block 10 to complete the wall surface.

According to the foam block structure for wall placing and the method for constructing the wall according to the above structure, the main block 10 and the bridge are assembled to form the indoor panel 11 and the outdoor panel 12, and the indoor panel 11 ) To remove the wall by pouring and hardening the concrete between the outdoor panel 12 and the outdoor panel 12, eliminating the need for a separate formwork and reducing the time and cost of wall construction. There is an advantage to prevent the occurrence of a safety accident. In particular, since the main block 10, which is a heat insulating material, is integrally fixed to the wall surface constructed through this method, it is not necessary to attach the heat insulating material on both sides of the wall through separate post work, and further reduce the work time and cost. There is an advantage.

In addition, the protrusion 17 and the concave groove 18 are formed on the upper surface and the lower surface of the main block 10, there is an advantage that the main block 10 can be firmly assembled.

In addition, the protruding portion 19 is formed in the adjacent surface of the main block 10 in the vertical direction, the protruding portion 19 has a wider tip portion than the proximal portion, the concrete between the main block 10 Curing after pouring, since the protrusions 19 are sandwiched between the concrete and fixed, there is an advantage that can significantly improve the coupling force between the wall made of concrete and the main block 10.

In addition, the main block 10 is formed with a noise preventing slot 16 penetrating the upper and lower surfaces of the main block 10 and extending in the longitudinal direction of the main block 10, the outside noise is introduced into the room. There is an advantage that can be prevented more effectively.

In addition, since the bridges 28 and 29 are constructed by bending high strength metal wires, the bridges 28 and 29 are not only simple in structure and easy to manufacture, but also light in weight and easy to carry and install. In particular, since the coupling parts 22 and 24 have a wide shape, the coupling part 22 supports a load or pressure applied to the main block 10 when concrete is poured, and thus the main block 10 is connected to the main block 10. ) Can be prevented from being damaged.

When the slab 70 is poured, the main block 10 may be used to close the circumferential surface of the slab 70, so that it is not necessary to install a separate formwork for closing the circumferential surface of the slab 70. , Slab 70 has the advantage of reducing the time and cost of pouring.

In addition, the extension part 25 of the bridges 28 and 29 is provided with a support part 27 in close contact with the front surface of the main block 10 to provide a main block 10 coupled to an upper end of the outdoor panel 12. There is an advantage that can be firmly supported. In particular, the front end portion of the support portion 27 is bent upward, and can be fixed by placing the reinforcing bars in the transverse direction to the front end portion of the support portion 27, it is possible to more firmly fix the reinforcement, the interval between each rebar easily There is an advantage that can be adjusted.

In addition, the height of the indoor panel 11 is further coupled to the top of the indoor panel 11, so that the height of the indoor panel 11 can be adjusted to the formwork 80, which can cope with various designs. have.

In the present embodiment, the coupling portion 22 is illustrated as a rhombus, but may be configured to have a shape of another figure, such as a circle, a manor or a square as necessary.

In addition, the bridges 28 and 29 may be formed of various lengths different from each other in the lengths of the extension parts 21 and 25, so that bridges 28 and 29 having appropriate lengths may be selected and used according to the thickness of the wall to be constructed. It can be configured to be.

In addition, the protrusion 17 and the concave groove 18 may be variously changed, such as a square or a triangle, in addition to the cross shape.

In addition, the upper portion of the auxiliary block 40 has been illustrated that the height adjusting block 60 and the upper closing block 50 is coupled, the structure of the height adjusting block 60 and the upper closing block 50 will be omitted. Can be.

In addition, although the example of constructing the wall surface and the slab 70 at the same time by placing concrete only once, the construction step is divided into two stages, the wall surface is constructed first, and the slab 70 may be constructed later.

FIG. 10 shows a modification of the bridges 28 and 29 according to the present invention. The extension portions 21 of the bridges 28 and 29 are curved to form a plurality of fixing portions 23a.

Therefore, since the reinforcing bars can be inserted and fixed in the fixing part 23a, the fixing of the reinforcing bars becomes easy and the reinforcing bars can be maintained at regular intervals.

In the above-described embodiment, the main block 10 constituting the indoor panel 11 and the outdoor panel 12 has the same thickness, but as shown in FIG. By varying the thickness of the main block 10 constituting the side panel 11 and the outdoor panel 12, the main block 10 having a suitable thickness according to the thickness of the concrete wall to be manufactured or the required insulation properties The indoor panel 11 and the outdoor panel 12 can be assembled by selecting. At this time, it is preferable that the thickness of the main block 10 constituting the outdoor panel 12 is thicker than that of the indoor panel 11.

In addition, as shown in Fig. 12, between the indoor panel 11 and the outdoor panel 12, a separate pulverizing material 90 supporting the upper and lower surfaces of the window frame is installed to pour the wall surface. It is also possible to install the window frame integrally. The releasing material 90 is formed with a concave groove 91 on an upper surface or a lower surface, and is installed in parallel between the indoor panel 11 and the outdoor panel 12 so that the concave groove 91 faces. By fitting the window frame into the recessed groove 91, the window frame can be integrally installed when the wall surface is poured.

In this case, the shape, width and length of the pulverulent material 90 may be variously modified as necessary.

10. Main blocks 28,29. bridge
30. Side block 40. Secondary block

Claims (1)

Fixing the main block 10 to each other by inserting coupling portions 22 at both ends of the bridges 28 and 29 into the coupling grooves 13 of the main block 10;
Assembling the main blocks 10 fixed to each other to form the indoor panel 11 and the outdoor panel 12;
Placing and curing concrete between the indoor panel 11 and the outdoor panel 12;
Coupling the main block 10 of the first stage to the top of the outdoor panel 12 and further coupling the auxiliary block 40 to the top of the indoor panel 11;
Coupling both ends of the bridges 28 and 29 to the main block 10 and the auxiliary block 40 on the upper side of the outdoor panel 12 and fixing them to each other;
Selectively coupling the height adjusting block 60 to the top of the auxiliary block 40 to adjust the height of the indoor panel 11 to match the height of the formwork 80;
Placing concrete in the formwork (80) and curing the wall construction method comprising the step of constructing the slab (70).

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